DE112015005853T5 - Triple testing machine of a suitcase number lock - Google Patents

Abstract

The present invention relates to a triple-checking machine of a case-mike lock comprising a testing machine platform and a control unit, wherein at least two combination lock holding clasps, a password wheel number rotation checking mechanism, and a key pull type key rotation checking mechanism are installed on the worktable of the testing machine platform. The present invention employs the above structure in which two test machine test mechanisms can perform a test of three functions - password wheel rotation life, plugging of the key for detecting the fatigue strength of the lock blocks and lock rows, rotation of the key for detecting the rotation resistance of the lock blocks, and the fatigue strength of one of the Realizing lock blocks with appropriate positioning recess etc., simultaneously realizing a PLC-controlled simulation of the work order and working principle of a suitcase lock in use, a sequential check of three functions can be completed in 3 seconds, thereby increasing the efficiency by more compared to the existing manual check increased 20 times; furthermore, the examination may be single or multiple and self-employed; the test is suitable for all suitcase locks, padlocks and side locks on the market; There is a failure alarm function to realize a totally intelligent feature.

Description

Technical area

The present invention relates to the technical field of combination locks, in particular a triple-checking machine of a suitcase number lock.

State of the art

At present, the passwheel password wheel sprocket test, the key insertion and pull test, and the spanner rotation test are mainly performed manually by a worker, the test method has a very low efficiency, a low accuracy, and a high labor cost.

Content of the invention

It is the object of the present invention to overcome the technical shortcomings of the prior art and to provide a triple-checking machine of a case-key lock.

To achieve the object, the present invention employs a following technical solution: a triple-checking machine of a case-mike lock comprising a testing machine platform and a control unit, wherein at least two combination lock holding clamps, a password wheel number rotation checking mechanism and a key pull-out key rotation checking mechanism are provided on the work table of the testing machine platform are installed, and wherein:
the password wheel number rotation test mechanism comprises a horizontal mounting seat, an electric motor, a crank shaft rotatably driven by the electric motor horizontally mounted on the horizontal mount seat, a horizontal push rod driven by the crank turn bar, a push rod seat installing and positioning the horizontal push rod, and one with the end of the horizontal push rod connected numeral rotation block, and wherein the lower rear portion of the number rotation block is connected to a horizontal slider in a parallel to the horizontal push rod arranged combination of horizontal guide rail and slider, and wherein the horizontal guide rail is mounted on the work table of the Prüfmaschinenplattform;
and wherein the key-tightening key twist test mechanism comprises a longitudinal support installed on the work table, an electrical longitudinal push rod installed on the longitudinal support, and a combination longitudinal guide rail and slider, a longitudinal servo motor connected simultaneously with the longitudinal electrical push rod and the longitudinal slide in the longitudinal guide rail and slider combination, and one at the bottom End of the output shaft of the longitudinal servo motor installed key-mounting block comprises, and wherein the key-mounting block, a longitudinally arranged key-positioning groove is provided.

On the lower surface of the number-rotation block, a number-rotation silicone rubber block is installed, and a laterally protruding number-rotating rack is further installed on the number-rotation block, and accordingly, a gear holder is further installed on the work table, and a plurality of longitudinal gear shafts are installed on the gear holder via a bearing and at the middle lower portion of each of the longitudinal gear shafts, gears and number-rotation silicone rubber rings are sequentially installed, and each gear is engaged with the number-rotating rack.

The control unit comprises a PLC control device arranged in the testing machine platform and a touch screen and start-stop switch installed on the side section of the machine platform, wherein a warning light is further arranged on the side section of the machine platform.

In the password wheel number rotation checking mechanism, there is further arranged a number-rotation force sensor connected to the PLC controller of the control unit.

In the key pull-out key rotation test mechanism, there are further arranged a pull-in force sensor and a torsion force sensor, which are connected to the PLC controller of the control unit.

On the work table of the testing machine platform and on the side of the combination lock holding clamp, there are respectively disposed a first photoelectric switch and a second photoelectric switch, which are connected to the PLC control device.

On the work bench of the testing machine platform, a plurality of mounting holes are provided to perform installation and adjustment of the positions of the respective mechanisms in accordance with the grade and position requirement and other conditions of a lock to be tested.

The present invention employs the above structure, in which two test machine test mechanisms can perform a test of three functions - password wheel turning life, key insertion for detecting the fatigue strength of the lock blocks, and Lock rows plates, rotation of the key to detect the rotation resistance of the lock blocks and the fatigue strength of the lock blocks matching positioning recess etc. - realize, where the operations of the two test mechanisms both synchronous and asynchronous and can be controlled separately, so it is easy and flexible. The testing machine according to the present invention replaces the existing manual inspection to greatly improve the efficiency and save the labor costs, further improves the inspection accuracy and the uniformity, which is conducive to the improvement of the product quality. In addition, the locks for which testing of the present invention on a testing machine is appropriate cover the suitcase locks with a front layout, and the suitcase locks and padlocks with a side layout; The key's pull-in test and twist test include testing the zipper locks, padlocks and side locks, providing a wide area of application while having a fail-safe function to realize a totally intelligent feature.

Short description of the drawing

1 and 2 show an overall view of the testing machine according to the present invention.

3 shows a partial enlarged view of the point A according to 2 ,

Detailed embodiments

In the context of detailed embodiments and figures, the present invention will be explained in more detail below.

As in 1 to 3 The present invention relates to a triple testing machine of a suitcase number lock comprising a testing machine platform 1 and a control unit, being on the work table 11 the testing machine platform 1 at least several mounting holes 110 are provided, and being on the work table 11 the testing machine platform 1 at least two combination lock retaining clips 2 , a password wheel number rotation test mechanism 3 and a key pull key turning verification mechanism 4 are installed, and wherein:
the password wheel number rotation test mechanism 3 a horizontal mounting seat 31 , an electric motor (arranged in the horizontal mounting seat or inside the testing machine, not shown in figures), a horizontally mounted horizontal mounting seat 31 arranged by the electric motor driven crank turnbar 32 , one with the crank turn bar 32 connected by horizontal driven push rod 33 , one the horizontal push rod 33 installing and positioning push rod seat 34 and one with the end of the horizontal push rod 33 associated number rotation block 35 and wherein the operating portion of the number-rotation block 35 laterally below the axial direction of the horizontal push rod 33 is located, and wherein the lower rear portion of the number-rotation block 35 with a horizontal slider 361 in a parallel to the horizontal push rod 33 arranged combination 36 is connected by horizontal guide rail and slide, and wherein the horizontal guide rail 362 on the work table 11 the testing machine platform 1 is attached; the crank turn bar 32 is driven by the electric motor, so the horizontal push rod 33 for reciprocating movement along the push rod seat 34 is driven, continues the number-rotation block 35 for reciprocation along the horizontal guide rail 362 driven; one or two combination lock holding clamps 2 of which are below or laterally below the number rotation block 35 ; about the number turning block 35 the password wheel is driven to the back and forth on the combination lock to perform a password wheel life test;
Preferred is at the lower surface of the number rotation block 35 a number-turn silicone rubber block 351 Installed as a whole under the power by the horizontal push rod 33 has a float, about the friction between the number-rotation-silicone rubber block 351 on the upper surface and the password wheel, the password wheel is driven for rotation so as to be suitable for testing a sort of combination locks in which the password wheel protrudes on the upper surface of the lock box; at the number rotation block 35 is further a laterally projecting number-rotating rack 352 installed, according to further is a gear holder 37 on the work table 11 installed, the gear holder 37 is in the bent state, on the gear holder 37 are several Längszahnradwellen 371 Installed on a bearing, at the middle lower portion of each Längszahnradwelle 371 are gears 371 and pay-turn silicone rubber rings 373 installed in succession, each gear 372 is in each case in engagement with the number-rotating rack 352 ; about the engagement of the rack 352 in the gear 372 drives the rack 352 at a float with the number rotation block 35 the gear 372 and the gear shaft 371 for rotation, so that at the lower end of the gear shaft 371 fixed number rotary silicone rubber ring 373 rotates, by means of the friction between the number-turn silicone rubber ring 373 and the password wheel is driven to rotate the password wheel, the method is suitable for testing a sort of combination locks, wherein the password wheel protrudes on the side of the lock box; due to this, the examination of the combination locks of various grades can be realized by using the above structure with a corresponding combination lock holding clamp device, even through the fine adjustment of the concrete position and size, the rotation life tests of the password wheels of two combination locks can be performed simultaneously; a float is a detection cycle. According to the exam needs, it can be selected the gear holder 37 and to install the components on it as a whole or not to install.

The key pull plug key rotation test mechanism 4 includes one on the work table 11 installed longitudinal support 41 , one on the longitudinal bracket 41 installed electric longitudinal push rod 42 and a combination of longitudinal guide rail and slider, a longitudinal servo motor connected simultaneously with the longitudinal electrical push rod and the longitudinal slider in the longitudinal guide rail and slider combination 44 and one at the lower end of the output shaft of the longitudinal servo motor 44 installed key mounting block 45 , where on the key-fixing block 45 a longitudinally disposed key positioning groove is provided, which is adapted to a longitudinal locking screw to secure the key; a combination lock holding clamp 2 it is located just below the key attachment block 45 so that after attaching the combination lock the lock hole is exactly opposite the key installed on the key attachment block; the electrical longitudinal push rod 42 drives the whole longitudinal servo motor 44 for upward and downward movement along the longitudinal guide rail 432 in the combination 43 of longitudinal guide rail and slider, so that on the output shaft of the longitudinal servo motor 44 installed key moves up and down to perform a key pull test; after the key was inserted into the lock hole of the combination lock, the longitudinal servomotor operates 44 so that the output shaft and key rotate forwards 90 ° and then 90 ° backward to perform a rotary key check, from plugging in the key to forward rotation and reverse rotation to extraction, it represents a detection cycle.

The control unit includes one in the testing machine platform 1 arranged PLC control device (not shown) and installed on the side portion of the machine platform touch screen 12 and start-stop switch 13 , wherein on the side portion of the machine platform further a warning light 14 is arranged.

In the password wheel number rotation test mechanism 3 further, a number-rotation force sensor connected to the PLC controller of the control unit is arranged; That is, the number-rotation force sensor can detect the number-rotation force, namely, the magnitude of the number-rotation resistance that is compared with a threshold set in the PLC controller (usually, minimum 0.1 kgf and maximum 0.3 kgf are inputted) of the number-torque range when they are within of the area, it is indicated that the number-rotation force is ordinary, namely, the rotation of the password wheel is ordinary; If the number torque is too large or too small and is not within the range, it is indicated that the movement of the password wheel is prevented or the rotation too relaxed, the rotation of the password wheel is not ordinary, thereby indicating that the password wheel is ineffective; now, the PLC controller activates an audible and visual alarm to alert an operator that the passwheel pay-per-minute check is complete.

In the key pull-out key turn test mechanism 4 Further, a pull-in force sensor and a torsional force sensor are arranged, which are connected to the PLC control device of the control unit; the pull-in force sensor detects a push force required to insert the lock cylinder during the key-tightening process and a pull pull force or resistance to be overcome with a threshold set in the PLC controller (typically 0.1 kgf minimum and 0.5 maximum) kgf entered) of the pull-in force range, if they are within the range, it is indicated that the pull-pull force is ordinary; if they are too big or too small and are not within the range, it is indicated that the fatigue strength of the lock blocks and lock row plates of the lock cylinder is unusual and the test is to be terminated; Accordingly, the torsion force sensor detects a torsional force required during the twisting process of the key, which is compared with a threshold value set in the PLC controller (typically minimum 0.2 kgf and maximum 0.5 kgf input) of the torsional force range when they are within of the area, it is indicated that the torsional force is ordinary; if it is too big or too small and is not within the range, it is indicated that the torsional strength of the lock blocks and the fatigue strength of the positioning recess matched to the lock blocks are unusual, and the test should also be terminated.

For the number torque sensor, the pull-in force sensor and the torsion force sensor, a threshold value can be set in the PLC Control devices are performed based on the standards of different companies and the different types and models of locks, the respective thresholds can be adjusted to detect different locks more flexible and intelligent.

On the work table 11 the testing machine platform 1 and laterally of the combination lock holding clamp 2 are each a first photoelectric switch 15 and a second photoelectric switch 16 arranged, which are connected to the PLC control device. The first photoelectric switch 15 lies opposite the number-turning block 35 , where the number of round trips of the number rotation block 35 can be calculated while it can be detected whether the number-rotation block 35 usually works. When a mechanical error occurs in operation and the number rotation block stops, the first photoelectric switch gives 15 send a signal to the PLC controller so that the audible alarm sounds an alarm; the second photoelectric switch 16 is opposite to the reduced position of the key to calculate the key pull test number and to detect if the electrical longitudinal push rod 42 and the longitudinal servo motor 44 have a normal operation. If the error stops operation, the second photoelectric switch gives 16 a signal to the PLC controller so that the audible alarm sounds an alarm.

• 1) Installation eines zu prüfenden Schlosses, Einstellung der Prüfungsposition;
• 2) Start der Stromquelle;
• 3) Eintritt ins Interface, Einstellung der jeweiligen Prüfparameter;
• 4) Start-Druckknopf auf dem Interface drücken;
• 5) Aufteilung des Starts in einen Zahlendrehprüfungsstart und einen Schlüsselprüfungsstart;
• 6) Drücken des Starts der Schlüsselprüfung;
• 7) Drücken der elektrischen Schubstange, Einstecken des Schlüssels ins Schlosslochs, Aufhören der elektrischen Schubstange nach Erreichen des maximalen Abwärtspresshubs;
• 8) Start des Schrittmotors, schrittweise um 90 Grad vorwärts drehen und dann aufhören;
• 9) Anheben der elektrischen Schubstange, Herausziehen des Schlüssels, vorläufiger Stopp für 0,5 Sekunde nach Erreichen des maximalen Anhebhubs, dann die elektrische Schubstange nach unten drücken, den Schlüssel ins Schlossloch einstecken, Aufhören der elektrischen Schubstange nach Erreichen des maximalen Abwärtspresshubs;
• 10) Start des Schrittmotors, schrittweise um 90 Grad rückwärts drehen und dann aufhören;
• 11) Wiederholen der Schritte 7 bis 10, kontinuierlicher Betrieb für 1000 Male, danach aufhören und Alarm ausgeben. Wenn während des Betriebsprozesses die Torsionskraft zum Drehen des Schlüssels zu groß oder zu klein ist (der Schwellenwert wird im Inneren von PLC programmierend festgestellt, in der Regel sind minimal 0,2 kgf und maximal 0,5 kgf eingegeben), steuert PLC die akustische optische Alarmeinrichtung zum Alarm an, dabei werden alle Prüfungen gestoppt. Wenn die Schubkraft zum Einstecken des Schlüssels oder die Zugkraft zum Herausziehen zu groß oder zu klein ist (der Schwellenwert wird im Inneren von PLC programmierend festgestellt, in der Regel sind für die Schubkraft zum Einstecken minimal 0,1 kgf und maximal 0,5 kgf eingegeben; für die Zugkraft zum Herausziehen minimal 0,2 kgf und maximal 0,5 kgf), steuert PLC die akustische optische Alarmeinrichtung zum Alarm an, dabei werden alle Prüfungen gestoppt.
• 12) Drücken des Starts der Zahlendrehprüfung;
• 13) Der Kurbeldrehstange-Mechanismus treibt die Zahlendrehplatte und das Zahlendrehrad zu einem Hin- und Rückbetrieb an, um einen Zyklus von 5000 Malen zu erreichen. Wenn die Zahlendrehkraft zu groß oder zu klein ist (der Schwellenwert wird im Inneren von PLC programmierend festgestellt, in der Regel sind minimal 0,1 kgf und maximal 0,3 kgf eingegeben), steuert PLC die akustische optische Alarmeinrichtung zum Alarm an, dabei werden alle Prüfungen gestoppt.
• 14) Wenn die Prüfung die auf dem Interface eingestellten Parameter erreicht, hört das Gerät automatisch auf und gibt einen Alarm aus.

In using the present invention, the steps are as follows:

• 1) installation of a lock to be tested, adjustment of the test position;
• 2) start the power source;
• 3) Entry into the interface, setting of the respective test parameters;
• 4) Press start button on the interface;
• 5) split the start into a number turn test start and a key check start;
• 6) pressing the start of the key check;
• 7) pushing the electric push rod, inserting the key into the lock hole, stopping the electric push rod after reaching the maximum down stroke;
• 8) Start the stepper motor, gradually turn 90 degrees forward and then stop;
• 9) lifting the electric push rod, pulling out the key, temporary stop for 0.5 second after reaching the maximum lift stroke, then pushing down the electric push rod, insert the key into the lock hole, stop the electric push rod after reaching the maximum down stroke;
• 10) Start the stepper motor, step backwards 90 degrees and then stop;
• 11) Repeat steps 7 to 10, continuous operation for 1000 times, then stop and alarm. If, during the operating process, the torsional force to turn the key is too large or too small (the threshold is programmatically detected inside the PLC, typically at least 0.2 kgf and a maximum of 0.5 kgf are entered), PLC controls the acoustic optical Alarm device to alarm, while all checks are stopped. If the pushing force for inserting the key or the pulling force for pulling out is too large or too small (the threshold is determined programmatically inside of the PLC, as a rule, for the pushing force for insertion, at least 0.1 kgf and a maximum of 0.5 kgf are input ; for pulling force to pull out a minimum of 0.2 kgf and a maximum of 0.5 kgf), PLC activates the audible visual alarm device to alarm, all tests are stopped.
• 12) pressing the start of the number turn test;
• 13) The crank-turning mechanism drives the number-rotating plate and the number-rotating wheel to a back and forth operation to achieve a cycle of 5000 times. If the number of revolutions is too high or too low (the threshold is programmed programmatically inside the PLC, normally a minimum of 0.1 kgf and a maximum of 0.3 kgf is entered), the PLC will trigger the audible alarm to alert it all tests stopped.
• 14) When the test reaches the parameter set on the interface, the instrument automatically stops and issues an alarm.

The present invention employs the above structure in which two test machine test mechanisms can perform a test of three functions - password wheel rotation life, plugging of the key for detecting the fatigue strength of the lock blocks and lock rows, rotation of the key for detecting the rotation resistance of the lock blocks, and the fatigue strength of one of the Lock blocks suitable positioning well etc. - realize, where the operations of the two test mechanisms both synchronous and asynchronous and can be controlled separately, so that it is easy and flexible. The testing machine according to the present invention replaces the existing manual inspection to greatly improve the efficiency and save the labor costs, further improves the inspection accuracy and the uniformity, which is conducive to the improvement of the product quality.

In addition, the locks for which testing of the present invention on a testing machine is appropriate cover the suitcase locks with a front layout, and the suitcase locks and padlocks with a side layout; the key insertion test and rotation test include testing of the zipper locks, padlocks and side locks, with a wide range of applications, while providing a PLC-driven simulation of the order of work and operation of a suitcase lock in use, allowing a sequential check in 3 seconds completed by three functions, this increases the efficiency by more than 20 times compared to the existing manual test; furthermore, the examination may be single or multiple and self-employed; the test is suitable for all suitcase locks, padlocks and side locks on the market; There is a failure alarm function to realize a totally intelligent feature.

Claims (7)

Triple-testing machine of a case-mike lock comprising a testing machine platform and a control unit, characterized in that at least two combination lock holding clamps, a password wheel Zahlendrehprüfmechanismus and a Schlüsselziehsteck-Schlüsseldrehprüfmechanismus are installed on the workbench of the Prüfmaschinenplattform, and wherein: the password wheel Zahlendrehprüfprüfmechanismus a horizontal mounting seat an electric motor, a horizontally mounted on the horizontal mounting seat driven by the electric motor crank turning bar, connected to the crank pivot rod driven by them horizontal push rod, a horizontal push rod installing and positioning push rod seat and connected to the end of the horizontal push rod number turning block, and wherein the lower rear section of the number-rotation block with a horizontal slider arranged in a direction parallel to the horizontal push rod Combined combination of horizontal guide rail and slide, and wherein the horizontal guide rail is mounted on the work table of the Prüfmaschinenplattform; and wherein the key-tightening key twist test mechanism comprises a longitudinal support installed on the work table, an electrical longitudinal push rod installed on the longitudinal support, and a combination longitudinal guide rail and slider, a longitudinal servo motor connected simultaneously with the longitudinal electrical push rod and the longitudinal slide in the longitudinal guide rail and slider combination, and one at the bottom End of the output shaft of the longitudinal servo motor installed key-mounting block comprises, and wherein the key-mounting block, a longitudinally arranged key-positioning groove is provided. Triple-test machine of a suitcase number lock according to claim 1, characterized in that on the lower surface of the number-rotating block, a number-rotation silicone rubber block is installed, wherein on the number-rotating block further a laterally projecting number-rotating rack is installed, and correspondingly further on the work table, a gear holder is installed and wherein at the gear holder, a plurality of Längszahnradwellen is installed via a bearing, and wherein at the middle lower portion of each Längszahnradwellen gears and number-rotation silicone rubber rings are installed one after the other, and wherein each gear is in engagement with the number-rotating rack. Tripel testing machine of a suitcase number lock according to claim 1, characterized in that the control unit comprises a arranged in the Prüfmaschinenplattform PLC control device and installed on the side portion of the machine platform touch screen and start-stop switch, wherein arranged on the side portion of the machine platform further a warning light is. Triple-checking machine of a case-number lock according to claim 1, characterized in that in the password wheel Zahlendrehprüfmechanismus a further connected to the PLC controller of the control unit number-rotating force sensor is arranged. Triple-test machine of a case-number lock according to claim 1, characterized in that in the Schlüsselziehsteck-Schlüsseldrehprüfmechanismus further a Ziehsteckkraftsensor and a torsional force sensor are arranged, which are connected to the PLC controller of the control unit. Tripel testing machine of a suitcase number lock according to claim 1, characterized in that on the work table of the Prüfmaschinenplattform and the side of the combination lock-Halteklemmvorrichtung a first photoelectric switch and a second photoelectric switch are respectively connected, which are connected to the PLC control device. Tripel testing machine of a suitcase number lock according to claim 1, characterized in that a plurality of mounting holes are provided on the work table of the Prüfmaschinenplattform.

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